try {
	Array.prototype.del = function(a) {
			a.sort();
			for (var b = this.concat([]), c = a.length - 1; c >= 0; c--) b = b.slice(0, a[c]).concat(b.slice(a[c] + 1));
			return b;
		},

		HTMLImageElement.prototype.loadOnce = function(a) {
			var b = 0;
			this.onload = function() {
				b || a.call(this, null), b++;
			};
		},
		function(a) {
			var b = {
				lib: [],
				init: function() {
					this.require("config");
				},
				module: function(a, b) {
					this.lib[a] = b.call(null, this);
				},
				require: function(a) {
					var b = this,
						c = document.createElement("script");
					document.body.appendChild(c), c.src = "./js/module/" + a + ".js", c.onload = c.onerror = function(a) {
						b.handlerror(a);
					};
				},
				handlerror: function() {},
				destroySelf: function(b) {
					throw delete ShearPhoto[a], Error(b);
				},
				reflect: function(a, b, c) {
					return a = this.lib.config.getModuleName(a), this.lib[a].process(b, c);
				},
				reflectEasy: function(a) {
					return a = this.lib.config.getEasyFun(a), this.lib.easy.getFun(a);
				},
				add: function(a, b, c, d, e, f, g, h) {
					return this.lib.addLayer.add(a, b, c, d, e, f, g, h);
				},
				applyMatrix: function() {}
			};
			ShearPhoto[a] = function(b, c, d) {
				if (!(this instanceof ShearPhoto[a])) return new ShearPhoto[a](b, c, d);
				this.startTime = +new Date();
				var e = document.createElement("canvas"),
					f = e.getContext("2d"),
					imgWidth, imgHeight;
				isNaN(b) ? (e.width = parseInt(b.width), e.height = parseInt(b.height), c = getComputedStyle(b),
						imgWidth = parseInt(c.getPropertyValue("width")), imgHeight = parseInt(c.getPropertyValue("height")),
						isNaN(imgWidth) ? f.drawImage(b, 0, 0) : f.drawImage(b, 0, 0, imgWidth, imgHeight)) : (e.width = b,
						e.height = c, f.fillStyle = d || "#fff", f.fillRect(0, 0, b, c)), this.canvas = e,
					this.context = f, this.imgData = f.getImageData(0, 0, e.width, e.height), this.name = a + "_" + Math.random(),
					this.canvas.id = this.name, this.layers = [], b = document.createElement("canvas"),
					b.width = e.width, b.height = e.height;
			}, ShearPhoto[a].module = function(a, c) {
				b.module(a, c);
			}, ShearPhoto[a].dorsyMath = function() {
				return b.lib.dorsyMath;
			}, ShearPhoto[a].prototype = {
				act: function(a) {
					var c = [],
						c = Array.prototype.slice.call(arguments, 1);
					return b.reflect(a, this.imgData, c), this;
				},
				view: function(a, b, c, d, e) {
					var f = this.clone();
					return f.type = 1, this.addLayer(f, "正常", 0, 0), f.act(a, b, c, d, e), this;
				},
				excute: function() {
					var a = this.layers,
						b = a.length;
					a[b - 1] && 1 == a[b - 1][0].type && (this.imgData = a[b - 1][0].imgData, delete a[b - 1]);
				},
				cancel: function() {
					var a = this.layers,
						b = a.length;
					a[b - 1] && 1 == a[b - 1][0].type && delete a[b - 1];
				},
				show: function(b, c) {
					var d, e, f, g, h = new ShearPhoto[a](this.canvas.width, this.canvas.height);
					for (h.add(this, "正常", 0, 0, c), this.tempPsLib = h, d = 0; d < this.layers.length; d++) e = this.layers[d],
						f = e[0].layers, g = e[0], f[f.length - 1] && 1 == f[f.length - 1][0].type && (g = f[f.length - 1][0]),
						h.add(g, e[1], e[2], e[3], c);
					return this.context.clearRect(0, 0, this.canvas.width, this.canvas.height), this.context.putImageData(h.imgData, 0, 0),
						b ? document.querySelector(b).appendChild(this.canvas) : document.body.appendChild(this.canvas),
						this;
				},
				replace: function(a) {
					return a && (a.onload = function() {}, a.src = this.save()), this;
				},
				add: function() {
					var a, c, d, e, f, g = [];
					for (d = 0; d < arguments.length; d++)
						if (d) switch (typeof arguments[d]) {
							case "string":
								/\d+%/.test(arguments[d]) ? c = arguments[d].replace("%", "") : /[RGB]+/.test(arguments[d]) ? f = arguments[d] : a = arguments[d];
								break;

							case "number":
								g.push(arguments[d]);
								break;

							case "boolean":
								e = arguments[d];
						}
					return d = g[0] || 0, g = g[1] || 0, this.imgData = b.add(this.imgData, arguments[0].imgData, a || "正常", c / 100 || 1, d, g, e || !1, f || "RGB"),
						this;
				},
				addLayer: function(a, b, c, d) {
					return this.layers.push([a, b, c, d]), this;
				},
				clone: function() {
					var b = new ShearPhoto[a](this.canvas.width, this.canvas.height);
					return b.context.putImageData(this.imgData, 0, 0), b.imgData = b.context.getImageData(0, 0, this.canvas.width, this.canvas.height),
						b;
				},
				swap: function(a, b) {
					var c = this.layers[a];
					return this.layers[a] = this.layers[b], this.layers[b] = c, this;
				},
				deleteLayers: function(a) {
					this.layers = this.layers.del(a);
				},
				save: function(b, c) {
					var d, e, f, g, h;
					if (!this.layers.length) return c ? (this.context.putImageData(this.imgData, 0, 0),
						this.canvas.toDataURL(c, .9)) : (this.context.putImageData(this.imgData, 0, 0), this.canvas.toDataURL());
					for (d = new ShearPhoto[a](this.canvas.width, this.canvas.height), d.add(this, "正常", 0, 0, b),
						this.tempPsLib = d, e = 0; e < this.layers.length; e++) f = this.layers[e], g = f[0].layers,
						h = f[0], g[g.length - 1] && 1 == g[g.length - 1][0].type && (h = g[g.length - 1][0]),
						d.add(h, f[1], f[2], f[3], b);
					return this.context.clearRect(0, 0, this.canvas.width, this.canvas.height), this.context.putImageData(d.imgData, 0, 0),
						c ? this.canvas.toDataURL(c, .9) : this.canvas.toDataURL();
				},
				drawRect: function() {
					var a, b, c, d, e, f;
					for ((a = document.getElementById("imgRect")) || (a = document.createElement("canvas"),
							a.id = "imgRect", document.body.appendChild(a), a.width = parseInt(this.canvas.width),
							a.height = parseInt(this.canvas.height)), b = a.getContext("2d"), b.clearRect(0, 0, a.width, a.height),
						c = [], d = this.tempPsLib.imgData.data, e = 0, f = d.length; f > e; e++) c[d[e]] ? c[d[e]]++ : c[d[e]] = 1;
					for (b.beginPath(), b.moveTo(0, a.height), e = d = 0; 255 > e; e++) c[e] > d && (d = c[e]);
					for (e = 0; 255 > e; e++) f = c[e] || 0, f = a.height - .8 * (f / d) * a.height,
						b.lineTo(e / 256 * a.width, f, 1, 1);
					b.lineTo(a.width + 10, a.height), b.fill();
				},
				ps: function(a) {
					var c;
					return c = b.reflectEasy(a).call(this), this.logTime("组合效果" + a), c;
				},
				logTime: function(a) {
					console.log(a + ": " + (+new Date() - this.startTime) / 1e3 + "s");
				},
				ctx: function(a) {
					var b = this.ctxContext;
					return b.putImageData(this.imgData, 0, 0), a.call(b), this.imgData = b.getImageData(0, 0, this.canvas.width, this.canvas.height),
						this;
				}
			};
		}("psLib"),
		function(a) {
			ShearPhoto[a].module("ImageEnhance", function() {
				return {
					process: function(a) {
						for (var b = a.data, c = 0, d = b.length; d > c; c += 4);
						return a.data = b, a;
					}
				};
			});
		}("psLib"),
		function(a) {
			ShearPhoto[a].module("addLayer", function() {
				return {
					add: function(a, b, c, d, e, f, g, h) {
						var i, j, k, l, m, n, o, p;
						for (g = a.data, i = b.data, e = e || 0, f = f || 0, d = d || 1, h = h || "RGB",
							/[RGB]+/.test(h) || (h = "RGB"), k = h.replace("R", "0").replace("G", "1").replace("B", "2"),
							h = a.width, l = i.length, b = b.width, k = [-1 < k.indexOf("0"), -1 < k.indexOf("1"), -1 < k.indexOf("2")],
							o = 0, p = g.length; p > o; o += 4)
							if (m = o / 4, n = parseInt(m / h), m %= h,
								n -= f, m -= e, n = n * b + m, n *= 4, n >= 0 && l - 4 > n && b > m && m >= 0)
								for (m = 0; 3 > m && 0 != i[n + 3]; m++) switch (g[o + 3] = i[n + 3],
									c) {
									case "颜色减淡":
										k[m] && (j = g[o + m] + g[o + m] * i[n + m] / (255 - i[n + m]), g[o + m] = (1 - d) * g[o + m] + d * j);
										break;

									case "变暗":
										k[m] && (j = g[o + m] < i[n + m] ? g[o + m] : i[n + m], g[o + m] = (1 - d) * g[o + m] + d * j);
										break;

									case "变亮":
										k[m] && (j = g[o + m] > i[n + m] ? g[o + m] : i[n + m], g[o + m] = (1 - d) * g[o + m] + d * j);
										break;

									case "正片叠底":
										k[m] && (j = parseInt(g[o + m] * i[n + m] / 255), g[o + m] = (1 - d) * g[o + m] + d * j);
										break;

									case "滤色":
										k[m] && (j = parseInt(255 - (255 - g[o + m]) * (255 - i[n + m]) / 255), g[o + m] = (1 - d) * g[o + m] + d * j);
										break;

									case "叠加":
										k[m] && (j = 127.5 >= g[o + m] ? g[o + m] * i[n + m] / 127.5 : 255 - (255 - g[o + m]) * (255 - i[n + m]) / 127.5,
											g[o + m] = (1 - d) * g[o + m] + d * j);
										break;

									case "强光":
										k[m] && (j = 127.5 >= i[n + m] ? g[o + m] * i[n + m] / 127.5 : g[o + m] + (255 - g[o + m]) * (i[n + m] - 127.5) / 127.5,
											g[o + m] = (1 - d) * g[o + m] + d * j);
										break;

									case "差值":
										k[m] && (j = g[o + m] > i[n + m] ? g[o + m] - i[n + m] : i[n + m] - g[o + m], g[o + m] = (1 - d) * g[o + m] + d * j);
										break;

									case "排除":
										k[m] && (j = g[o + m] + i[n + m] - g[o + m] * i[n + m] / 127.5, g[o + m] = (1 - d) * g[o + m] + d * j);
										break;

									case "点光":
										k[m] && (j = g[o + m] < 2 * i[n + m] - 255 ? 2 * i[n + m] - 255 : g[o + m] < 2 * i[n + m] ? g[o + m] : 2 * i[n + m],
											g[o + m] = (1 - d) * g[o + m] + d * j);
										break;

									case "颜色加深":
										k[m] && (j = 255 - 255 * (255 - g[o + m]) / i[n + m], g[o + m] = (1 - d) * g[o + m] + d * j);
										break;

									case "线性加深":
										k[m] && (j = g[o + m] + i[n + m], j = j > 255 ? j - 255 : 0, g[o + m] = (1 - d) * g[o + m] + d * j);
										break;

									case "线性减淡":
										k[m] && (j = g[o + m] + i[n + m], j = j > 255 ? 255 : j, g[o + m] = (1 - d) * g[o + m] + d * j);
										break;

									case "柔光":
										k[m] && (j = 127.5 > i[n + m] ? ((2 * i[n + m] - 255) * (255 - g[o + m]) / 65025 + 1) * g[o + m] : (2 * i[n + m] - 255) * (Math.sqrt(g[o + m] / 255) - g[o + m] / 255) + g[o + m],
											g[o + m] = (1 - d) * g[o + m] + d * j);
										break;

									case "亮光":
										k[m] && (j = 127.5 > i[n + m] ? 255 * (1 - (255 - g[o + m]) / (2 * i[n + m])) : g[o + m] / (2 * (1 - i[n + m] / 255)),
											g[o + m] = (1 - d) * g[o + m] + d * j);
										break;

									case "线性光":
										k[m] && (j = g[o + m] + 2 * i[n + m] - 255, j = j > 255 ? 255 : j, g[o + m] = (1 - d) * g[o + m] + d * j);
										break;

									case "实色混合":
										k[m] && (j = i[n + m] < 255 - g[o + m] ? 0 : 255, g[o + m] = (1 - d) * g[o + m] + d * j);
										break;

									default:
										k[m] && (j = i[n + m], g[o + m] = (1 - d) * g[o + m] + d * j);
								}
						return a;
					}
				};
			});
		}("psLib"),
		function(a) {
			ShearPhoto[a].module("brightness", function() {
				return {
					process: function(a, b) {
						var c, d, e, f, g, h;
						for (c = a.data, d = b[0] / 50, e = Math.tan((45 + 44 * ((b[1] || 0) / 50)) * Math.PI / 180),
							f = 0, g = c.length; g > f; f += 4)
							for (h = 0; 3 > h; h++) c[f + h] = (c[f + h] - 127.5 * (1 - d)) * e + 127.5 * (1 + d);
						return a;
					}
				};
			});
		}("psLib"),
		function(a) {
			ShearPhoto[a].module("applyMatrix", function(a) {
				return {
					process: function(b) {
						var c, d, e, f, g, h, i, j, k, l, m, n, o, p;
						for (c = b.data, d = b.width, e = new a.lib.dorsyMath.Matrix([-2, -4, -4, -4, -2, -4, 0, 8, 0, -4, -4, 8, 24, 8, -4, -4, 0, 8, 0, -4, -2, -4, -4, -4, -2], 25, 1),
							f = [], g = 0, h = c.length; h > g; g += 4)
							if (i = g / 4, j = parseInt(i / d),
								k = i % d, 0 != j && 0 != k) {
								for (l = [
										[],
										[],
										[]
									], m = -2; 3 > m; m++)
									for (n = j + m, o = -2; 3 > o; o++)
										for (p = 4 * (n * d + (k + o)),
											i = 0; 3 > i; i++) l[i].push(c[p + i]);
								for (j = new a.lib.dorsyMath.Matrix(l, 3, matrixSize).mutiply(e), i = 0; 3 > i; i++) f[g + i] = j.data[i];
								f[g + 4] = c[g + 4];
							}
						for (g = 0, h = c.length; h > g; g++) c[g] = f[g] || c[g];
						return b;
					}
				};
			});
		}("psLib"),
		function(a) {
			ShearPhoto[a].module("config", function() {
				var a = {
						"灰度处理": "toGray",
						"反色": "toReverse",
						"灰度阈值": "toThresh",
						"高斯模糊": "gaussBlur",
						"亮度": "brightness",
						"浮雕效果": "embossment",
						"查找边缘": "borderline",
						"色相/饱和度调节": "setHSI",
						"马赛克": "mosaic",
						"油画": "oilPainting",
						"腐蚀": "corrode",
						"锐化": "sharp",
						"添加杂色": "noise",
						"曲线": "curve",
						"暗角": "darkCorner",
						"喷点": "dotted"
					},
					b = {
						"美肤": "softenFace",
						"素描": "sketch",
						"自然增强": "softEnhancement",
						"紫调": "purpleStyle",
						"柔焦": "soften",
						"复古": "vintage",
						"黑白": "gray",
						"仿lomo": "lomo",
						"亮白增强": "strongEnhancement",
						"灰白": "strongGray",
						"灰色": "lightGray",
						"暖秋": "warmAutumn",
						"木雕": "carveStyle",
						"粗糙": "rough"
					};
				return {
					getModuleName: function(b) {
						return a[b] || b;
					},
					getEasyFun: function(a) {
						return b[a] || a;
					}
				};
			});
		}("psLib"),
		function(a) {
			ShearPhoto[a].module("corrode", function() {
				return {
					process: function(a, b) {
						var c, d, e, f, g, h, i, j, k;
						for (c = parseInt(b[0]) || 3, d = a.data, e = a.width, f = a.height, g = 0; e > g; g++)
							for (h = 0; f > h; h++)
								for (i = parseInt(2 * Math.random() * c) - c,
									j = parseInt(2 * Math.random() * c) - c, k = h * e + g, i = (h + i) * e + g + j,
									j = 0; 3 > j; j++) d[4 * k + j] = d[4 * i + j];
						return a;
					}
				};
			});
		}("psLib"),
		function(a) {
			ShearPhoto[a].module("curve", function(a) {
				return {
					process: function(b, c) {
						var d, e, f, g, h, i, j, k;
						for (d = a.lib.dorsyMath.lagrange(c[0], c[1]), e = b.data, f = b.width, g = b.height,
							h = 0; f > h; h++)
							for (i = 0; g > i; i++)
								for (j = i * f + h, k = 0; 3 > k; k++) e[4 * j + k] = d(e[4 * j + k]);
						return b;
					}
				};
			});
		}("psLib"),
		function(a) {
			ShearPhoto[a].module("darkCorner", function(a) {
				return {
					process: function(b, c) {
						var d, e, f, g, h, i, j, k, l, m, n, o, p, q;
						for (d = parseInt(c[0]) || 3, e = c[1] || 30, f = b.data, g = b.width, h = b.height,
							i = 2 * g / 3, j = 1 * h / 2, k = a.lib.dorsyMath.distance([i, j]), d = k * (1 - d / 10),
							l = 0; g > l; l++)
							for (m = 0; h > m; m++)
								for (n = m * g + l, o = 0; 3 > o; o++) p = f[4 * n + o],
									q = (a.lib.dorsyMath.distance([l, m], [i, j]) - d) / (k - d), 0 > q && (q = 0),
									p = (0 * Math.pow(1 - q, 3) + .06 * q * Math.pow(1 - q, 2) + 3 * .3 * q * q * (1 - q) + 1 * Math.pow(q, 3)) * p * e / 255,
									f[4 * n + o] -= p;
						return b;
					}
				};
			});
		}("psLib"),
		function(a) {
			ShearPhoto[a].module("dorsyMath", function(a) {
				var b = {
					FFT1: function(a) {
						function c() {
							var g, h, i, j, k, l, m, n, o, p, q;
							for (e++, g = d / Math.pow(2, e), h = d / g, i = 0; g > i; i++)
								for (j = i * h,
									k = (i + 1) * h - 1, l = e, m = Math.pow(2, l - 1), n = 0; k - m >= j; j++) o = j + m,
									p = n * d / Math.pow(2, l), q = p + d / 4, a[j] instanceof b.C || (a[j] = new b.C(a[j])),
									a[o] instanceof b.C || (a[o] = new b.C(a[o])), p = a[j].plus(a[o].mutiply(f[p])),
									q = a[j].plus(a[o].mutiply(f[q])), a[j] = p, a[o] = q, n++;
							g > 1 && c();
						}
						for (var d = a.length, e = 0, f = [], g = 0; d > g; g++) f[g] = this.exp(-2 * Math.PI * g / d);
						return c(), a;
					},
					DFT: function() {},
					Matrix: function(a, b, c) {
						var d, e, f = [];
						if (b) {
							if (isNaN(b) ? (d = /(\d+)\*/.exec(b)[1], b = /\*(\d+)/.exec(b)[1]) : (d = b, b = c),
								a[0] && a[0][0])
								for (c = 0; d > c; c++)
									for (f[c] = [], e = 0; b > e; e++) f[c][e] = a[c][e] || 0;
							else
								for (c = 0; d > c; c++)
									for (f[c] = [],
										e = 0; b > e; e++) f[c][e] = a[c * b + e] || 0;
							this.m = d, this.n = b;
						} else this.m = a.length, this.n = a[0].length;
						this.data = f;
					},
					C: function(a, b) {
						this.r = a || 0, this.i = b || 0;
					},
					exp: function(a, c) {
						a = a || 0, c = c || 1;
						var d = new b.C();
						return d.r = c * Math.cos(a), d.i = c * Math.sin(a), d;
					},
					lagrange: function(a, b) {
						var c = a.length;
						return function(d) {
							var e, f, g, h, i;
							for (e = 0, f = 0; c > f; f++) {
								for (g = 1, h = 1, i = 0; c > i; i++) i != f && (g *= a[f] - a[i], h *= d - a[i]);
								e += b[f] * (h / g);
							}
							return e;
						};
					},
					applyMatrix: function(c, d, e) {
						var f, g, h, i, j, k, l, m, n, o, p, q, r, s, t;
						for (e = e || 0, f = c.data, g = c.width, h = d.length, d = new b.Matrix(d, h, 1),
							i = [], j = -(Math.sqrt(h) - 1) / 2, k = 0, l = f.length; l > k; k += 4)
							if (m = k / 4,
								n = parseInt(m / g), o = m % g, 0 != n && 0 != o) {
								for (p = [
										[],
										[],
										[]
									], q = j; - j >= q; q++)
									for (r = n + q, s = j; - j >= s; s++)
										for (t = 4 * (r * g + (o + s)),
											m = 0; 3 > m; m++) p[m].push(f[t + m]);
								for (n = new a.lib.dorsyMath.Matrix(p, 3, h).mutiply(d), m = 0; 3 > m; m++) i[k + m] = n.data[m];
								i[k + 4] = f[k + 4];
							}
						for (k = 0, l = f.length; l > k; k++) i[k] && (f[k] = i[k] < e ? i[k] : f[k]);
						return c;
					},
					RGBToHSI: function(a, b, c) {
						var d = (a - b + a - c) / 2 / Math.sqrt((a - b) * (a - b) + (a - c) * (b - c)) || 0,
							d = Math.acos(d),
							d = c > b ? 2 * Math.PI - d : d,
							e = 1 - 3 * Math.min(a, b, c) / (a + b + c);
						return d > 2 * Math.PI && (d = 2 * Math.PI), 0 > d && (d = 0), {
							H: d,
							S: e,
							I: (a + b + c) / 3
						};
					},
					HSIToRGB: function(a, b, c) {
						if (0 > a ? (a %= 2 * Math.PI, a += 2 * Math.PI) : a %= 2 * Math.PI, a <= 2 * Math.PI / 3) var d = c * (1 - b),
							e = c * (1 + b * Math.cos(a) / Math.cos(Math.PI / 3 - a)),
							f = 3 * c - (e + d);
						else a <= 4 * Math.PI / 3 ? (a -= 2 * Math.PI / 3,
							e = c * (1 - b), f = c * (1 + b * Math.cos(a) / Math.cos(Math.PI / 3 - a)), d = 3 * c - (f + e)) : (a -= 4 * Math.PI / 3,
							f = c * (1 - b), d = c * (1 + b * Math.cos(a) / Math.cos(Math.PI / 3 - a)), e = 3 * c - (f + d));
						return {
							R: e,
							G: f,
							B: d
						};
					},
					applyInHSI: function(a, b) {
						var c, d, e, f;
						for (c = a.data, d = 0, e = c.length; e > d; d += 4) f = this.RGBToHSI(c[d], c[d + 1], c[d + 2]),
							b(f), 1 < f.S && (f.S = 1), 0 > f.S && (f.S = 0), f = this.HSIToRGB(f.H, f.S, f.I),
							c[d] = f.R, c[d + 1] = f.G, c[d + 2] = f.B;
					},
					applyInCoordinate: function() {},
					distance: function(a, c) {
						return c = c || [0, 0], a = new b.C(a[0], a[1]), c = new b.C(c[0], c[1]), a.minus(c).distance();
					},
					xyToIFun: function(a) {
						return function(b, c, d) {
							return 4 * (c * a + b) + (d || 0);
						};
					},
					xyCal: function(a, b, c, d, e) {
						var f, g, h;
						for (f = this.xyToIFun(a.width), g = 0; 3 > g; g++) h = f(b, c, g), a[h] = d(a[h]);
						e && (a[h + 1] = e(a[h + 1]));
					}
				};
				return b.Matrix.prototype = {
					plus: function(a) {
						var c, d, e;
						if (this.m != a.m || this.n != a.n) throw Error("矩阵加法行列不匹配");
						for (c = new b.Matrix([], this.m, this.n), d = 0; d < this.m; d++)
							for (e = 0; e < this.n; e++) c.data[d][e] = this.data[d][e] + a.data[d][e];
						return c;
					},
					minus: function(a) {
						var c, d, e;
						if (this.m != a.m || this.n != a.n) throw Error("矩阵减法法行列不匹配");
						for (c = new b.Matrix([], this.m, this.n), d = 0; d < this.m; d++)
							for (e = 0; e < this.n; e++) c.data[d][e] = this.data[d][e] - a.data[d][e];
						return c;
					},
					mutiply: function(a) {
						var c, d, e, f, g;
						if (this.n != a.m) throw Error("矩阵乘法行列不匹配");
						for (c = new b.Matrix([], this.m, a.n), d = 0; d < this.m; d++)
							for (e = 0; e < a.n; e++) {
								for (f = 0, g = 0; g < this.n; g++) f += this.data[d][g] * a.data[g][e];
								c.data[d][e] = f;
							}
						return c;
					}
				}, b.C.prototype = {
					plus: function(a) {
						var c = new b.C();
						return c.r = this.r + a.r, c.i = this.i + a.i, c;
					},
					minus: function(a) {
						var c = new b.C();
						return c.r = this.r - a.r, c.i = this.i - a.i, c;
					},
					mutiply: function(a) {
						var c = new b.C();
						return c.r = this.r * a.r - this.i * a.i, c.i = this.r * a.i + this.i * a.r, c;
					},
					divide: function(a) {
						var c = new b.C(),
							d = a.mutiply(a.conjugated());
						return a = this.mutiply(a.conjugated()), c.r = a.r / d.r, c.i = a.i / d.r, c;
					},
					conjugated: function() {
						return new b.C(this.r, -this.i);
					},
					distance: function() {
						return Math.sqrt(this.r * this.r + this.i * this.i);
					}
				}, b;
			});
		}("psLib"),
		function(a) {
			ShearPhoto[a].module("dotted", function(a) {
				return {
					process: function(b, c) {
						var d, e, f, g, h, i, j, k, l, m, n, o, p, q;
						for (d = parseInt(c[0]) || 1, e = parseInt(c[1]) || 1, f = b.data, g = b.width,
							h = b.height, i = 2 * d + 1, j = [], k = e * e, e = -d; d > e; e++)
							for (l = -d; d > l; l++) e * e + l * l > k && j.push([e, l]);
						for (d = a.lib.dorsyMath.xyToIFun(g), e = 0, g = parseInt(g / i); g > e; e++)
							for (l = 0,
								k = parseInt(h / i); k > l; l++)
								for (m = parseInt((e + .5) * i), n = parseInt((l + .5) * i),
									o = 0; o < j.length; o++) p = m + j[o][0], q = n + j[o][1], f[d(p, q, 3)] = 225,
									f[d(p, q, 2)] = 225, f[d(p, q, 0)] = 225, f[d(p, q, 1)] = 225;
						return b;
					}
				};
			});
		}("psLib"),
		function(a) {
			ShearPhoto[a].module("easy", function() {
				return {
					getFun: function(b) {
						return {
							softenFace: function() {
								return this.clone().add(this.act("高斯模糊", 10), "滤色").act("亮度", -10, 5);
							},
							sketch: function() {
								var a = this.act("灰度处理").clone();
								return this.add(a.act("反色").act("高斯模糊", 8), "颜色减淡").act("锐化", 1);
							},
							softEnhancement: function() {
								return this.act("曲线", [0, 190, 255], [0, 229, 255]);
							},
							purpleStyle: function() {
								var a = this.clone();
								return this.add(a.act("高斯模糊", 3), "正片叠底", "RG");
							},
							soften: function() {
								var a = this.clone();
								return this.add(a.act("高斯模糊", 6), "变暗");
							},
							vintage: function() {
								return this.clone(), this.act("灰度处理").add(ShearPhoto[a](this.canvas.width, this.canvas.height, "#808080").act("添加杂色").act("高斯模糊", 4).act("色相/饱和度调节", 32, 19, 0, !0), "叠加");
							},
							gray: function() {
								return this.act("灰度处理");
							},
							lomo: function() {
								return this.clone().add(this.clone(), "滤色").add(this.clone(), "柔光").add(this.clone().act("反色"), "正常", "20%", "B").act("暗角", 6, 200);
							},
							strongEnhancement: function() {
								return this.clone().add(this.clone().act("曲线", [0, 50, 255], [0, 234, 255]), "柔光");
							},
							strongGray: function() {
								return this.act("灰度处理").act("曲线", [0, 61, 69, 212, 255], [0, 111, 176, 237, 255]);
							},
							lightGray: function() {
								return this.act("灰度处理").act("曲线", [0, 60, 142, 194, 255], [0, 194, 240, 247, 255]);
							},
							warmAutumn: function() {
								var a = this.clone().act("色相/饱和度调节", 36, 47, 8, !0).act("暗角", 6, 150);
								return this.add(a, "叠加");
							},
							carveStyle: function() {
								var a = this.clone().act("马赛克").act("查找边缘").act("浮雕效果");
								return this.add(a, "线性光");
							},
							rough: function() {
								return this.add(ShearPhoto[a](this.canvas.width, this.canvas.height, "#000").act("喷点").act("反色").act("浮雕效果"), "叠加");
							}
						}[b];
					}
				};
			});
		}("psLib"),
		function(a) {
			ShearPhoto[a].module("embossment", function() {
				return {
					process: function(a) {
						var b, c, d, e, f, g, h, i, j;
						for (b = a.data, c = a.width, d = [], e = 0, f = b.length; f > e; e += 4)
							if (g = e / 4,
								h = parseInt(g / c), i = g % c, g = 4 * ((h - 1) * c + (i - 1)), j = 4 * (h + 1) * c + 4 * (i + 1),
								0 != h && 0 != i) {
								for (h = 0; 3 > h; h++) d[e + h] = b[g + h] - b[j + h] + 127.5;
								d[e + 4] = b[e + 4];
							}
						for (e = 0, f = b.length; f > e; e++) b[e] = d[e] || b[e];
						return a;
					}
				};
			});
		}("psLib"),
		function(a) {
			ShearPhoto[a].module("gaussBlur", function() {
				return {
					process: function(a, b, c) {
						var d, e, f, g, h, i, j = a.data,
							k = a.width,
							l = a.height,
							m = [],
							n = 0;
						for (b = Math.floor(b) || 3, c = c || b / 3, d = 1 / (Math.sqrt(2 * Math.PI) * c),
							g = -1 / (2 * c * c), h = 0, c = -b; b >= c; c++, h++) f = d * Math.exp(g * c * c),
							m[h] = f, n += f;
						for (h = 0, c = m.length; c > h; h++) m[h] /= n;
						for (d = 0; l > d; d++)
							for (c = 0; k > c; c++) {
								for (n = e = f = g = 0, i = -b; b >= i; i++) h = c + i, h >= 0 && k > h && (h = 4 * (d * k + h),
									e += j[h] * m[i + b], f += j[h + 1] * m[i + b], g += j[h + 2] * m[i + b], n += m[i + b]);
								h = 4 * (d * k + c), j[h] = e / n, j[h + 1] = f / n, j[h + 2] = g / n;
							}
						for (c = 0; k > c; c++)
							for (d = 0; l > d; d++) {
								for (n = e = f = g = 0, i = -b; b >= i; i++) h = d + i, h >= 0 && l > h && (h = 4 * (h * k + c),
									e += j[h] * m[i + b], f += j[h + 1] * m[i + b], g += j[h + 2] * m[i + b], n += m[i + b]);
								h = 4 * (d * k + c), j[h] = e / n, j[h + 1] = f / n, j[h + 2] = g / n;
							}
						return a.data = j, a;
					}
				};
			});
		}("psLib"),
		function(a) {
			ShearPhoto[a].module("borderline", function(a) {
				return {
					process: function(b) {
						return a.lib.dorsyMath.applyMatrix(b, [0, 1, 0, 1, -4, 1, 0, 1, 0], 250);
					}
				};
			});
		}("psLib"),
		function(a) {
			ShearPhoto[a].module("mosaic", function() {
				return {
					process: function(a, b) {
						var c, d, e, f, g, h, i, j, k, l, m, n, o;
						for (c = parseInt(b[0]) || 3, d = a.data, e = a.width, f = a.height, c = 2 * c + 1,
							g = 0, h = parseInt(e / c); h > g; g++)
							for (i = 0, j = parseInt(f / c); j > i; i++) {
								for (k = [], l = [0, 0, 0], m = 0; c > m; m++)
									for (n = 0; c > n; n++) o = (i * c + m) * e + g * c + n,
										l[0] += d[4 * o], l[1] += d[4 * o + 1], l[2] += d[4 * o + 2];
								for (k[0] = l[0] / (c * c), k[1] = l[1] / (c * c), k[2] = l[2] / (c * c), m = 0; c > m; m++)
									for (n = 0; c > n; n++) o = (i * c + m) * e + g * c + n,
										d[4 * o] = k[0], d[4 * o + 1] = k[1], d[4 * o + 2] = k[2];
							}
						return a;
					}
				};
			});
		}("psLib"),
		function(a) {
			ShearPhoto[a].module("noise", function() {
				return {
					process: function(a, b) {
						var c, d, e, f, g, h, i, j, k;
						for (c = parseInt(b[0]) || 100, d = a.data, e = a.width, f = a.height, g = 0; e > g; g++)
							for (h = 0; f > h; h++)
								for (i = h * e + g,
									j = 0; 3 > j; j++) k = parseInt(2 * Math.random() * c) - c, d[4 * i + j] += k;
						return a;
					}
				};
			});
		}("psLib"),
		function(a) {
			ShearPhoto[a].module("oilPainting", function() {
				return {
					process: function(a, b) {
						var c, d, e, f, g, h, i, j, k;
						for (c = parseInt(b[0]) || 16, d = a.data, e = a.width, f = a.height, g = 0; e > g; g++)
							for (h = 0; f > h; h++) {
								for (i = h * e + g, j = 0, k = 0; 3 > k; k++) j += d[4 * i + k];
								for (j /= 3, j = parseInt(j / c) * c, k = 0; 3 > k; k++) d[4 * i + k] = j;
							}
						return a;
					}
				};
			});
		}("psLib"),
		function(a) {
			ShearPhoto[a].module("setHSI", function(a) {
				return {
					process: function(b, c) {
						return c[0] = c[0] / 180 * Math.PI, c[1] = c[1] / 100 || 0, c[2] = 255 * (c[2] / 100) || 0,
							c[3] = c[3] || !1, a.lib.dorsyMath.applyInHSI(b, function(a) {
								c[3] ? (a.H = c[0], a.S = c[1]) : (a.H += c[0], a.S += c[1]), a.I += c[2];
							}), b;
					}
				};
			});
		}("psLib"),
		function(a) {
			ShearPhoto[a].module("sharp", function() {
				return {
					process: function(a, b) {
						var c, d, e, f, g, h, i, j, k;
						for (c = b[0] || .6, d = a.data, e = a.width, f = 0, g = d.length; g > f; f += 4)
							if (h = f / 4,
								i = parseInt(h / e), j = h % e, 0 != i && 0 != j)
								for (k = 4 * ((i - 1) * e + (j - 1)),
									i = 4 * ((i - 1) * e + j), h = 4 * (h - 1), j = 0; 3 > j; j++) d[f + j] += (d[f + j] - (d[i + j] + d[h + j] + d[k + j]) / 3) * c;
						return a;
					}
				};
			});
		}("psLib"),
		function(a) {
			ShearPhoto[a].module("toGray", function() {
				return {
					process: function(a) {
						var b, c, d, e;
						for (b = a.data, c = 0, d = b.length; d > c; c += 4) e = parseInt((b[c] + b[c + 1] + b[c + 2]) / 3),
							b[c + 2] = b[c + 1] = b[c] = e;
						return a.data = b, a;
					}
				};
			});
		}("psLib"),
		function(a) {
			ShearPhoto[a].module("toReverse", function() {
				return {
					process: function(a) {
						for (var b = a.data, c = 0, d = b.length; d > c; c += 4) b[c] = 255 - b[c], b[c + 1] = 255 - b[c + 1],
							b[c + 2] = 255 - b[c + 2];
						return a.data = b, a;
					}
				};
			});
		}("psLib"),
		function(a) {
			ShearPhoto[a].module("toThresh", function(a) {
				return {
					process: function(b, c) {
						var d, e, f;
						for (b = a.lib.toGray.process(b), d = b.data, c = c[0] || 128, e = 0, f = d.length; f > e; e++)(e + 1) % 4 && (d[e] = d[e] > c ? 255 : 0);
						return b.data = d, b;
					}
				};
			});
		}("psLib");
} catch (e) {}